I am building a CART model and I am trying to tune 2 parameters of rpart - CP and Maxdepth. While the Caret package is working well for one parameter at a time, when both are used it keeps throwing an error and i am not able to figure out why

tc <- trainControl("cv",10)
rpart.grid <- expand.grid(cp=seq(0,0.1,0.01), minsplit=c(10,20)) 
train(Petal.Width ~ Petal.Length + Sepal.Width + Sepal.Length, data=iris, method="rpart", 
      trControl=tc,  tuneGrid=rpart.grid)

I am getting the following error:

Error in train.default(x, y, weights = w, ...) : 
  The tuning parameter grid should have columns cp

Method "rpart" is only capable of tuning the cp, method "rpart2" is used for maxdepth. There is no tuning for minsplit or any of the other rpart controls. If you want to tune on different options you can write a custom model to take this into account.

Click here for more info on how to do this. Also read this answer about how to use the rpart control within the train function.

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caret can't do that with the integrated methods so you are going to have to add your own.

Alternatively, you can try this on mlr a similar machine learning framework that allows many resampling strategies, tune control methods, and algorithm parameter tuning out of the box. There are many learners already implemented, with several different evaluation metrics to choose from.

In your specific problem, try this example:

iris.task = classif.task = makeClassifTask(id = "iris-example", data = iris, target = "Species")
resamp = makeResampleDesc("CV", iters = 10L)

lrn = makeLearner("classif.rpart")

control.grid = makeTuneControlGrid() 
#you can pass resolution = N if you want the algorithm to 
#select N tune params given upper and lower bounds to a NumericParam
#instead of a discrete one
ps = makeParamSet(
  makeDiscreteParam("cp", values = seq(0,0.1,0.01)),
  makeDiscreteParam("minsplit", values = c(10,20))

#you can also check all the tunable params

#and the actual tuning, with accuracy as evaluation metric
res = tuneParams(lrn, task = iris.task, resampling = resamp, control = control.grid, par.set = ps, measures = list(acc,timetrain))
opt.grid = as.data.frame(res$opt.path)

mlr is incredibly versatile: wrapper approach allows one to fuse learners with tuning strategies, pre-processing, filtering and imputation steps, and much more.

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  • 1
    I'm in my first steps with mlr, Maybe the learner lrn should be used in the tuneParams function. – Enrique Pérez Herrero Nov 4 '16 at 11:09
  • 1
    @EnriquePérezHerrero You are absolutely correct, thanks for the heads up! – catastrophic-failure Nov 4 '16 at 11:26

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